1. EXPERT PARTNERS
FOR YOUR RESEARCH
The CIC bioGUNE’s Technology Platforms
2.
3. INTRODUCTION
CIC bioGUNE (Biosciences Cooperative Research Centre,
www.cicbiogune.es), a non-profit biomedical research
organization founded at the initiative of the Basque
Government, has invested over 35 million Euro into a
modern animal facility and state-of-the-art infrastructure for
research in Genomics, Proteomics, Metabolomics, Cell and
Structural Biology.
Thus, advanced technology platforms have been set up for
genotyping, gene silencing, mass spectrometry, cryo-electron
microscopy, X-ray diffraction, NMR spectroscopy, and
diverse computational analyses.
Prof José M Mato CIC bioGUNE offers access to its high-end equipment,
General Director specialised services and expert consultation to external
users from academic institutions, technology centres and
companies. To this end, CIC bioGUNE has created this
catalog of core facilities where the main equipment and
services are listed. Policies regarding services, access, fees
and prioritization vary by facility. For more information,
please contact the core facility directly through our web site.
4.
5. EXPERT PARTNERS FOR YOUR RESEARCH
The CIC bioGUNE’s Technology Platforms
01 STRUCTURAL BIOLOGY
01_01 Macromolecular Crystallography Platform _6
01_02 Electron Microscopy Platform _10
01_03 Nuclear Magnetic Resonance (NMR) Platform _14
02 GENOME ANALYSIS PLATFORM _18
03 PROTEOMICS PLATFORM _22
04 METABOLOMICS PLATFORM _26
05 GENE SILENCING PLATFORM _30
06 ANIMAL FACILITIES UNIT _34
6. CIC bioGUNE ENjOYS STATE-OF-THE-ART X-RAY
CRYSTALLOGRAPHY FACILITIES FOR IN-HOUSE
USERS AS wELL AS EXTERNAL USERS: AS A
SERvICE OR COLLABORATIvE RESEARCH.
6_
8. CIC bioGUNE’s Macromolecular Crystallography Platform offers competitive
services in structure determination for in-house users as well as external users.
Today there are more than twenty structural genomic (SG) groups around
the world working in the high-throughput (HT) determination of protein
structures. Much effort has been invested in the development of protocols for
automatization of all the steps during protein structure determination process
(cloning, expression, crystallization, data collection, processing and phasing).
CIC bioGUNE enjoys state-of-the-art X-ray crystallography facilities that today
can support HT crystallization experiments and conventional in-house data
collection.
Our aim is to promote the use of the crystallization facility as a HT service,
offering most of the commercial crystallization methods and customized
8_ solutions for the specific user’s requirements. The image analysis platform
allows users to check their crystallization experiments on-line. This feature
might be appealing for external users since they will be able to track their own
experiments remotely.
There are many scientists that may be interested in incorporating
crystallographic studies in their own projects but do not have the
infrastructure or the expertise to perform the experiment; the Macromolecular
Crystallography Platform at CIC bioGUNE can offer them the infrastructure as
a service, including training in proper use of the equipment and advice on the
preparation of high quality crystallization samples.
Within collaborative research we can also offer: data collection, data
processing, structure determination, validation and coordinates deposition in
the PDB data bank.
9. 01_01
STRUCTURAL BIOLOGY
Macromolecular Crystallography Platform
Services Equipment
01 Advice on crystallization procedures and quality 01 TECAN liquid handling.
sample preparation.
02 MOSQUITO crystallization robot.
02 High-throughput screening with more than 1000
commercial or customized crystallization solutions 03 BRUKER Crystal Farm and image analysis platform.
for specific user requirements.
04 Two crystallization rooms: at 4°C and 18°C.
03 Crystallization plates storage at 4°C, 10°C, 18°C, 27°C.
05 Two temperature controlled incubators
04 Crystallization plates storage and imaging at 21°C in a (Molecular Dimensions).
Bruker Crystal Farm.
06 X8-PROTEUM system from BRUKER with two
05 Images will be accessible via web-interface. detectors, a CCD and Mar345 image plate.
06 Personal training in data collection using the X-ray 07 Two Oxford Cryosystems 700.
home system.
08 Storage dewar for crystal samples.
07 Support and training in quikcryosoaking 1 technique
for in-house derivatization.
08 Individual and group training in all the steps of
the procedure; from data collection to structure
determination.
09 Within collaborative research we offer data collection,
data processing, structure determination, validation
and coordinates deposition.
10. CIC bioGUNE ENjOYS STATE-OF-THE-ART
CRYO-ELECTRON MICROSCOPY FACILITIES
FOR IN-HOUSE AND EXTERNAL USERS.
10_
12. The Electron Microscopy (EM) Platform at CIC bioGUNE provides high tech
instrumentation and advanced image processing methods to research groups
within the institute as well as to external researchers. The advantages of
cryo-electron microscopy (Cryo-EM) over traditional EM techniques include
the preservation of the sample in a near-native hydrated state without the
distortions from stains or fixatives needed for traditional EM.
Cryo-EM is a very direct method of structure determination that complements
the well-established techniques of X-ray crystallography and NMR
spectroscopy. Fitting of individual structures into 3D cryo-EM maps of large
assemblies allows the characterization of multi-component interactions, to
distinguish different functional states. The method known as single-particle
analysis allows structural elucidation of large biological macromolecules with
sub-nanometer resolution and near-atomic resolution in the case of highly
12_ symmetric viruses. On the other hand, cryo-electron tomography is the only
method that allows pleomorphic structures, such as cells, organelles, and many
macromolecular assemblies to be imaged at nanometer resolution in a near-
native frozen-hydrated state.
To achieve these goals EM platform provides two transmission electron
microscopes, 120 kV and 200 kV machines with associated digital cameras,
and the auxiliary equipment required for cryo-EM. This high-tech equipment
allows us to make use of advanced methods of image processing and
computation to elucidate the structure of large macromolecular assemblies.
13. 01_02
STRUCTURAL BIOLOGY
Electron Microscopy Platform
Services Technical equipment
01 Sample preparation for specific user requirements 01 Jeol JEM-2200FS/CR transmission electron microscope,
(negative staining, vitrification and drop casting for either equipped with a 200kV field emission gun (FEG) and an
life science or material science samples). OMEGA in-column energy filter. A digital camera Gatan
Ultrascan 4000 SP (4008 x 4008 pixels) is used to acquire
02 Transmission electron microscopy (TEM) analysis high and medium resolution digital micrographs, recorded
service. TEM is the primary characterization method for under low-dose cryo conditions.
determining the size and shape of nanoparticles and some
biological organelles. Our basic TEM service includes grid 02 Jeol JEM-1230 transmission electron microscope, equipped
preparation and high resolution images of your samples. with a 120kV thermionic gun. A digital camera CCD Gatan
Size statistics and 2D studies are available as an option. Orius SC1000 (4008 x 2672 pixels) is used for life sciences
and materials science applications.
03 Immuno-electron microscopy.
03 Vitrobot, automated vitrification robot (FEI).
04 Technical support and introductory training.
04 3 cryotransfer holders used for cryo electron microscopy.
05 Cryo-transmission electron microscopy (Cryo-EM) service.
05 1 double tilt cryotransfer holder used for cryo electron
06 3D structure determination by single-particle analysis or microscopy.
electron tomography techniques.
06 1 ultra-high tilt cryotransfer holder used for cryo-electron
tomography.
07 Darkroom and Z/I PhotoScan scanner (ZEIS).
08 High vacuum coating system (MED 020 BALTEC) for
carbon evaporation and glow discharge.
09 HP Graphics Workstation for EM data processing.
14. CIC bioGUNE HAS A STATE-OF-THE-ART,
vERSATILE HIGH-FIELD NUCLEAR MAGNETIC
RESONANCE FACILITY FOR THE FULL RANGE
OF ADvANCED BIOMOLECULAR NMR STUDIES.
14_
15. 01_03
STRUCTURAL BIOLOGY
Nuclear Magnetic Resonance (NMR) Platform
16. CIC bioGUNE’s NMR Platform is equipped to play a leading role among
biomolecular NMR facilities in Europe, and aims to interact broadly with both
academic and private partners.
NMR spectroscopy is the most versatile analytical technique to study
molecules with atomic resolution. For structure analysis, it ideally
complements X-ray crystallography by probing the solution state, and covering
also intrinsically disordered proteins. Yet, NMR can provide important
information far beyond this main objective of structural biology. It also is the
only technique to study, e.g., protonation states and molecular dynamics at
atomic level.
NMR spectroscopy offers unique capabilities for metabolomics, functional
proteomics, and drug discovery and development (DD&D). NMR screening
for ligands exploits the extreme sensitivity in detecting even the weakest
interaction between components simply added in solution. NMR can thereby
reveal and distinguish binding sites, discriminate between site specific and
unspecific binding, and resolve details of interaction to guide assembly of
novel high-affinity ligands from weakly binding molecular fragments.
CIC bioGUNE’s NMR Platform has most advanced hardware to carry out the
16_ full range of solution-state NMR studies: Our 800 MHz high-field
spectrometer enables biomolecular analyses with maximal sensitivity and
resolution, while the 600 MHz spectrometer has ample accessory to reach
far beyond standard applications. The platform is supported by a specialized
laboratory to produce proteins with the required isotope labeling.
CiC bioGUNE’s scientists have long-standing international experience in
the various fields of biomolecular NMR and protein biosynthesis. Their
research covers NMR methods development, analysis of protein structure and
dynamics, and interaction studies.
CiC bioGUNE’s NMR Platform offers its expertise, assistance and resources for
the full range of biomolecular solution-state NMR: from protein expression
and isotope labeling, implementation of NMR experiments, spectra recording,
spectral assignment, small-scale NMR screening, to analysis of molecular
structures, dynamics and interactions. We also offer consultations, training and
teaching, and set-up services for protein biosynthesis and NMR spectroscopy.
17. 01_03
STRUCTURAL BIOLOGY
Nuclear Magnetic Resonance (NMR) Platform
Services Equipment
01 NMR consulting: defining, developing and supervising 01 800 MHz BRUKER AVANCE III spectrometer:
NMR projects (also at customer facilities).
• equipped with TCI cryo-probe (with z-gradients)
02 NMR programming: designing, programming and for detection of 1H or 13C with highest sensitivity.
implementing customized NMR experiments (also at
customer facility). 02 600 MHz BRUKER AVANCE III spectrometer with
a vast range of probe-heads for diverse, special
03 NMR teaching and training (also at customer facility). applications:
04 NMR measurements (standard and customised). • QXI (1H, 2H, 13C, 15N, 31P) with x,y,z-gradients.
05 NMR interaction studies: hit validation, small-scale • TXI (1H, 2H, 13C, 15N) with x,y,z-gradients.
screening (particularly by 19F-NMR), elucidation of binding
sites and modes. • TXI (1H, 2H, 13C, 15N) with x,y,z-gradients, tuned
for high salt concentrations (> 1 M).
06 NMR structure elucidation: for small molecules, amenable
proteins, and amenable ligand-protein complexes (analysis • TBI (1H, 2H, 13C, BB) with z-gradients and tunable
of interactions for rational drug design). BB coil (31P - 109Ag).
07 NMR spectral assignment: for amenable target proteins • SEF (1H, 2H, 19F) with z-gradients.
(e.g., for use in NMR screening and hit validation).
• QXI (1H, 2H, 13C, 15N, 19F) with z-gradients.
09 Specialized protein biosynthesis for NMR: expression of
proteins with various stable isotopes (2H, 13C, 15N). • HR-MAS TXI (1H, 2H, 13C, 15N).
18. CIC bioGUNE EMPLOYS THE MOST RECENT
TECHNOLOGIES FOR wHOLE GENOME
ANALYSIS USING MICROARRAYS AND
MASSIvE SEqUENCING.
18_
BOTH EXTERNAL SERvICES AND
COLLABORATIONS ARE ON OFFER.
20. The main goal of the Genome Analysis Platform is the optimization of sample
processing protocols for a set of sophisticated, state-of-the-art, high-throughput
genome analysis technologies. The principal methodologies used deal
with the characterization of variants at gDNA sequence level (mainly Single
Nucleotide Polymorphisms – SNPs and Copy Number Variations – CNVs),
the study of mRNA or smallRNA expression profiles and the identification of
epigenetic modifications such as DNA methylation. All these techniques are
applied in projects whose aim is the understanding of complex biological
systems, such us the genomic regulatory effect of a drug-treatment in a
particular tissue (Pharmacogenomics), the identification of genetic variants
that confer susceptibility to certain diseases (association studies), or the
genomic description of economically-optimal agriculture variants (plant and
20_ animal breeding).
Recently, the group has been also establishing appropriate work-flow procedures
for some data analysis, as well as developing new bioinformatics tools.
Member of
21. 02
GENOME ANALYSIS PLATFORM
Services Equipment
01 High-throughput genotyping: standard panels (from 10,000 01 BeadStation 500 GT/GX (Illumina, Inc.)
up to 5 million SNPs for different species) and customized
panels (from 96 to 60,000 SNPs). 02 Genome Analyzer II (Illumina, Inc.)
02 High-throughput gene expression characterization: whole 03 HiScan-SQ (Illumina Inc.)
genome transcriptome analysis of human and mouse
tissues using standard Illumina chips. The Platform has all the equipment required to perform
basic molecular biology experiments and quality controls,
03 Characterization of differential methylation as epigenetic such as Experion (BioRad) and Bioanalyzer (Agilent
modification: analysis of 27,000 CpG islands or 450,000 loci Technologies) systems, EpiMotion (Eppendorf) liquid
in the human genome. handling, centrifuges, electrophoresis apparatus, gel
imaging systems, etc.
04 Next-generation sequencing: de novo sequencing and
re-sequencing of genomic DNA and RNA:
• Genomic regions of interest For details of offered services and quote requests, please go to:
• Complete genes http://genomics.cicbiogune.es/GAP/service/service.php
• Complete chromosomes
• Whole genomes
• DNA methylation analysis at whole genome level
• Expression analysis (complete transcriptome)
• Identification and analysis of microRNA and smallRNA
• DNA-protein interactions (ChIP-Seq).
05 Assistance in the design of the customized SNP panels
(for genotyping projects).
06 Assistance in bioinformatics analysis.
22. THE PROTEOMICS PLATFORM IS CHIEFLY
FOCUSED ON THE ANALYSIS OF PROTEINS
BY MASS SPECTROMETRY.
STATE-OF-THE ART TECHNOLOGIES ARE
22_
CURRENTLY USED TO SUPPORT RESEARCH
IN PROTEOMICS. THE PROTEOMICS PLATFORM
PROvIDES SERvICES TO THE IN-HOUSE
GROUPS AND EXTERNAL USERS.
24. By analyzing the abundance of proteins under different physiological or
experimental conditions it is possible to identify groups of proteins that
are relevant for these specific conditions. Differential in-gel electrophoresis
(DIGE) is nowadays the most powerful technique for gel-based differential
proteomic analysis.
During the last decade genomes from many organisms, including human,
have been sequenced. The availability of genomic sequences has boosted the
proteomic research as the data obtained by analyzing proteins and peptides by
mass spectrometry can be directly linked to the genomic information, using
bioinformatics methods. Continuous optimization of sample preparation
while employing the latest generation of tandem mass spectrometers, with
their constantly improving high mass accuracy, high resolution and sensitivity,
makes the protein identification process increasingly fast and accurate.
The Proteomics Platform provides services to in-house groups and external
users and offers joining forces for collaborative research projects.
24_
Member of
25. 03
PROTEOMICS PLATFORM
Services Equipment
01 Molecular mass determination by MALDI TOF. MALDI:
Peptide and/or protein mass can be measured in a straight
forward fashion by linear mode type of analysis. 01 Autoflex III TOF/TOF (Bruker): this mass spectrometer
allows performing different types of analysis:
02 Protein identification by MALDI TOF/TOF.
The proteins previously purified or resolved on a gel can Intact peptide/protein molecular mass analysis can be
be identified by peptide mass fingerprinting (PMF). The performed.
process includes: protein digestion by trypsin, peptide
extraction when required, sample preparation, analysis Protein identification by peptide mass fingerprinting
by MALDI TOF, data processing and database search by (MALDI-TOF) and/or peptide fragment fingerprinting
Mascot search engine. The sample, when possible, can also MALDI TOF/TOF).
be analyzed by peptide fragment fingerprinting using
MALDI TOF/TOF. 02 Agilent 1200 nano scale chromatography system for off-
line MALDI TOF/TOF analysis.
03 Protein identification by nano scale liquid chromatography
coupled on-line to tandem mass spectrometry. 03 Proteineer DP robotic station (Bruker) for automatic tryptic
Complex protein mixtures can be analysed and identified digestion of gel spots.
in such systems.
Liquid chromatography coupled to tandem mass
04 Differential in-gel-electrophoresis (DIGE). spectrometry systems:
Due to the special nature of DIGE experiments, please
contact the head of the unit. 04 Nano Acquity UPLC chromatography system coupled
on-line to Synapt G2 (Waters).
Useful information is shown in the web page like correct
sample handling tips etc. On top of that we offer advice to 05 Nano Acquity UPLC chromatography system coupled
choose the right sample preparation, handling procedures on-line to LTQ-Orbitrap XL (Thermo-Fisher).
and analytical methodology of choice.
These two high sensitivity, mass accuracy and resolution
systems have the latest technical features for optimal
identification of proteins from complex mixtures.
Differential in-gel electrophoresis (DIGE):
06 Typhoon TRIO, spot picker and DeCyder.
DIGE is nowadays the most robust approach for gel-based
differential proteomic analysis.
26. CIC bioGUNE HAS ESTABLISHED A GROUP
OF STATE-OF-THE-ART TECHNOLOGIES TO
PROvIDE POwERFUL TOOLS TO APPROACH
AND UNDERSTAND COMPLEX BIOLOGICAL
26_
PROCESSES. THE METABOLOMICS PLATFORM
IS DEvOTED TO THE STUDY OF THE
METABOLOMICS THAT IS THE MOST RECENT
OF THE “OMICS” TECHNOLOGIES.
28. In this “Global Systems Biology” era, metabolomics constitutes one of the
most powerful technologies to understand how a living organism interacts
with its environment. Metabolomics can be defined as the quantitative and
qualitative analysis of all metabolites (molecules with a molecular weight
of less than 1,500 Da) in a given organism. This results in the construction
of a metabolome or metabolic fingerprint, analogous to the genome or the
proteome. It is the latest member of the “omics” family and has already proven
its strength in the field of biomarker discovery and biochemical pathway
elucidation.
Metabolomics has clear advantages in that metabolites are closely related to
real biological end-points. Furthermore it takes into account the complete
biological system, including e.g. interactions with other genomes like gut
microflora. Because metabolomics makes use of biofluids (urine, serum, CSF) it
is a minimal invasive technique. Metabolomics makes use of well established,
robust analytical platforms, which results in very reproducible, fast and cost
effective analysis.
28_ The Metabolomics Platform focuses primarily on changes in the metabolome
since these can be indicative for alterations in the physiological state of the
organism. Altered metabolic profiles can be caused disease or exposure to
drugs and toxins. In order to detect relevant metabolites, the platform uses
high-resolution mass spectrometers coupled to ultra-performance liquid
chromatography (UPLC).
CIC bioGUNE’s Metabolomics Platform is currently applying this technology
to understand molecular mechanisms involved in infectious, neurological and
metabolic disorders.
Member of
29. 04
METABOLOMICS PLATFORM
Services Equipment
The aim of this platform is to provide support to research Discovery of biomarker candidates is carried out with the
groups interested in including a full systems analysis in SYNAPT G2 HDMS mass spectrometer (Waters®). The
their current research line. The platform offers: SYNAPT G2 combines ion mobility separation with high-
resolution time-of-flight (ToF) mass analysis and tandem
01 Assistance in the experimental design including attainable mass spectrometry. This instrument greatly facilitates
and appropriate statistical sampling and logistic aspects in identification metabolites. Once suitable biomarkers are
order to achieve satisfactory data. found, they can be screened in high throughput mode with
an orthogonal acceleration ToF instrument (LCT Premier
02 Untargeted metabolomics: biomarker discovery by analysis of XE, Waters®).
metabolites in biofluids, cells and tissues with UPLC-MS/MS.
01 Waters LCT Premier XE coupled to acquity UPLC
03 Targeted metabolomics: analysis of xenobiotic metabolites
and screening of identified biomarkers. High separation efficiency (UPLC)
High mass accuracy (ToF)
04 Multivariate Analysis of data. High full-scan sensitivity
High throughput
02 Waters SYNAPT G2 HDMS coupled to acquity UPLC
High separation efficiency (UPLC)
High mass accuracy (ToF)
Tandem MS (up to MS3)
Ion mobility separation based on molecular shape
of the analytes
High full-scan sensitivity
30. CIC bioGUNE OFFERS THE EXPERTISE OF
THE GENE SILENCING PLATFORM TO EXPAND
THE POTENTIAL OF RNAi TECHNOLOGY.
30_
32. The Gene Silencing Platform (GSP) at CIC bioGUNE is a facility to develop
and execute cell-based screening using RNAi. It has dedicated staff to manage
platform resources and help in assay development and data analysis. The
main goal of this platform is to make RNAi-mediated gene silencing as widely
accessible as possible.
Within collaborative research, we can facilitate silencing of individual genes
to elucidate their functions. Upon request, the GSP advises users on customer
design of siRNAs to silence specific genes (mostly in cases of targets obtained
from point mutations and/or chromosomal rearrangements).
An additional goal of the GSP is genome-wide or high-throughput, high-
content screening to identify the genes implicated in particular biological
processes. The GSP can also provide CIC bioGUNE investigators and their
collaborators with sub-collections or sub-libraries targeting requested pathways
or families of genes. We offer expertise in designing, developing, evaluating
32_ and implementing such screens. We can adapt our protocols (cellular models
and biological assays) to meet user needs: human, mouse or Drosophila
primary or tumor cells, for the analysis of stem cell differentiation, tumor
invasion, cellular adhesion, angiogenesis, etc.
Because of the highly specific and efficient silencing of the target gene, RNAi
emerges as a very promising technique for drug discovery, target validation in
cell culture and also as a novel therapeutic strategy. The GSP at CIC bioGUNE
can facilitate not only in vitro but also in vivo silencing and advise users on
RNAi technology as a therapeutic approach.
Member of
33. 05
GENE SILENCING PLATFORM
Possibilities of collaborative researches Equipment and Facilities
01 In vitro and in vivo silencing of individual genes. 01 The Human retroviral shRNAmir library developed
by Greg Hannon (CSHL), Stephen Elledge (Harvard)
02 Customer design of siRNAs. and colleagues. The library includes about 62.500
microRNA30-based hairpin constructs targeting the
03 Adapted cell-based screening using sub-libraries targeting whole human genome.
requested pathways or families of genes.
02 Silencer®Drosophila RNAi library distributed by Ambion/
04 Genome-wide screening using the Drosophila library. Applied Biosystem. This library is a collection of 13.071
dsRNAs targeting the best-annotated Drosophila genes.
03 Sciclone ALH 3000 (liquid handling system) + Twister II.
04 Cytomat 2C (CO2 incubator with plate shuttling).
05 Detection systems:
• Microplate reader (Synergy HT).
• Automated wide-field microscope (ImageXpress)
including MetaXpress Analysis Application
Modules for cell scoring, translocation, cell cycle, etc.
34. THE ANIMAL UNIT IS EqUIPPED wITH
STATE-OF-THE-ART FACILITIES AND A TEAM IN
CONTINUOUS TRAINING TO DEvELOP PROjECTS
IN ACCORDANCE wITH THE MOST STRINGENT
34_
ETHICAL AND LEGAL STANDARDS IN THE USE OF
ANIMALS IN RESEARCH.
36. The CIC bioGUNE´s Animal Unit (AU) is an AAALAC accredited facility. It
includes a Specific Pathogen Free (SPF) area to house rodents from commercial
sources and to produce and keep some strains of genetically engineered mice
(GEM). The AU works on continually improving their services and develops
new services through the collaboration with researchers from different
areas of interest. Our main objective for the near future is focusing on the
use of ultrasounds (echography) to detect and follow-up lesions in murine
models of hepatic and prostate cancer. We are also developing preliminary
echocardiography assays in order to assess the heart function in new strains
of GEM.
The main functions of the AU are:
• Covering the CIC bioGUNE users’ needs by providing them with the
36_ assessment and equipment necessary to carry out their research on
laboratory animals.
• Providing the care and looking after the welfare of laboratory animals
and carrying out periodic health monitoring.
• Ensuring observance of all legal and ethical standards concerning
the use of animals in research and for other scientific purposes.
Accredited by
37. 06
ANIMAL FACILITIES UNIT
Services Equipment
01 Ordering of animals (from vendor to the cage). 01 7 racks for individual ventilated cages (IVC).
02 Animal export/importation to/from overseas institutions 02 15 racks for automatic watering cages.
for research use (paperwork, shipment).
03 2 portable machines for inhalatory anesthesia.
03 Consultations and technical support (experiment design,
techniques, equipment). 04 SPINLAB 100 for biochemical analysis.
04 Animal maintenance. 05 ABACUS VET for hematological analysis.
05 Breeding of genetically engineered mice. 06 Vevo-770 for small rodents’ echography.
06 Health monitoring.
07 Equipment provision.
08 Administration of substances.
09 Sample collection (blood, urine, faeces).
10 Necropsy procedures.
11 Tissues/organs extraction.
12 Biochemical analysis.
13 Hematological analysis.
14 Hepatic echography.
40. Parque Tecnológico de Bizkaia
Edificio 801A · 48160 Derio
www.cicbiogune.es
Plan Nacional de Investigación Científica,
Desarrollo e Innovación Tecnológica 2004-2007
PCT-A48177752-2005/PCT-01000-2005-9
PCT-A48177752-2006/PCT-01000-2006-2